Joseph Brazzo

Dynamic alterations in Hippo signaling pathway and YAP activation during liver regeneration.

The Hippo signaling pathway has been implicated in mammalian organ size regulation and tumor suppression. Specifically, the Hippo pathway plays a critical role regulating the activity of transcriptional coactivator Yes-associated protein (YAP), which modulates a proliferative transcriptional program. Recent investigations have demonstrated that while this pathway is activated in quiescent livers, its inhibition leads to liver overgrowth and tumorigenesis. However, the role of the Hippo pathway during the natural process of liver regeneration remains unknown. Here we investigated alterations in the Hippo signaling pathway and YAP activation during liver regeneration using a 70% partial hepatectomy (PH) rat model. Our results indicate an increase in YAP activation by 1 day following PH as demonstrated by increased YAP nuclear localization and increased YAP target gene expression. Investigation of the Hippo pathway revealed a decrease in the activation of core kinases Mst1/2 by 1 day as well as Lats1/2 and its adapter protein Mob1 by 3 days following PH. Evaluation of liver-to-body weight ratios indicated that the liver reaches its near normal size by 7 days following PH, which correlated with a return to baseline YAP nuclear levels and target gene expression. Additionally, when liver size was restored, Mst1/2 kinase activation returned to levels observed in quiescent livers indicating reactivation of the Hippo signaling pathway. These findings illustrate the dynamic changes in the Hippo signaling pathway and YAP activation during liver regeneration, which stabilize when the liver-to-body weight ratio reaches homeostatic levels.

Partial or complete coverage of experimental spina bifida by simple intra-amniotic injection of concentrated amniotic mesenchymal stem cells

PURPOSE We sought to determine whether simple intra-amniotic delivery of concentrated amniotic mesenchymal stem cells (afMSCs) may elicit prenatal coverage of experimental spina bifida. METHODS Time-dated pregnant Sprague-Dawley dams (n=24) exposed to retinoic acid for the induction of fetal neural tube defects were divided in three groups. Group I had no further manipulations. Groups II and III received volume-matched intra-amniotic injections of either saline (Group II) or a suspension of syngeneic afMSCs labeled with green fluorescent protein (Group III) in all fetuses (n=202) on gestational day 17 (term=21-22 days). Animals were killed before term. Statistical comparisons were by ANOVA (P<0.05). RESULTS Of 165 fetuses viable at euthanasia, a spina bifida was present in 58% (96/165), with no significant differences in defect dimension across the groups (P=0.19). However, variable degrees of coverage of the defect by a rudimentary skin confirmed histologically were only present in Group III (P<0.001), in which donor afMSCs were documented, with no differences between Groups I and II (P=0.98). CONCLUSIONS Amniotic mesenchymal stem cells can induce partial or complete coverage of experimental spina bifida after concentrated intra-amniotic injection. Trans-amniotic stem cell therapy (TRASCET) may become a practical option in the prenatal management of spina bifida.

Trans-amniotic stem cell therapy (TRASCET) minimizes Chiari-II malformation in experimental spina bifida

PURPOSE We sought to study the impact of trans-amniotic stem cell therapy (TRASCET) in the Chiari-II malformation in experimental spina bifida. METHODS Sprague-Dawley fetuses (n=62) exposed to retinoic acid were divided into three groups at term (21-22 days gestation): untreated isolated spina bifida (n=21), isolated spina bifida treated with intra-amniotic injection of concentrated, syngeneic, labeled amniotic fluid mesenchymal stem cells (afMSCs) on gestational day 17 (n=28), and normal controls (n=13). Analyses included measurements of brainstem and cerebellar placement on high resolution MRI and histology. Statistical comparisons included ANOVA. RESULTS In parallel to the expected induced coverage of the spina bifida in the afMSC-treated group (P<0.001), there were statistically significant differences in brainstem displacement across the groups (P<0.001), with the highest caudal displacement in the untreated group. Significant differences in cerebellar displacement were also noted, albeit less pronounced. Pairwise comparisons were statistically significant, with P=0.014 between treated and normal controls in caudal brainstem displacement and P<0.001 for all other comparisons. Labeled afMSCs were identified in 71% of treated fetuses. CONCLUSIONS Induced coverage of spina bifida by TRASCET minimizes the Chiari-II malformation in the retinoic acid rodent model, further suggesting it as a practical alternative for the prenatal management of spina bifida.

A comparison between placental and amniotic mesenchymal stem cells for transamniotic stem cell therapy (TRASCET) in experimental spina bifida.

PURPOSE We compared placental-derived and amniotic fluid-derived mesenchymal stem cells (pMSCs and afMSCs, respectively) in transamniotic stem cell therapy (TRASCET) for experimental spina bifida. METHODS Pregnant dams (n=29) exposed to retinoic acid for the induction of fetal spina bifida were divided into four groups. Three groups received volume-matched intraamniotic injections of either saline (n=38 fetuses) or a suspension of 2×10(6) cells/mL of syngeneic, labeled afMSCs (n=73) or pMSCs (n=115) on gestational day 17 (term=21-22days). Untreated fetuses served as controls. Animals were killed before term. Statistical comparisons were by Fishers exact test (p<0.05). RESULTS Survival was similar across treatment groups (p=0.08). In fetuses with isolated spina bifida (n=100), there were higher percentages of defect coverage (either partial or complete) in both afMSC and pMSC groups compared with saline and untreated groups (p<0.001-0.03 in pairwise comparisons). There were no differences in coverage rates between afMSC and pMSC groups (p=0.94) or between saline and untreated groups (p=0.98). CONCLUSIONS Both pMSC and afMSC can induce comparable rates of coverage of experimental spina bifida after concentrated intraamniotic injection in the rodent model. This broadens the options for timing and cell source for TRASCET as a potential alternative in the prenatal management of spina bifida.

Extraluminal distraction enterogenesis using shape-memory polymer

PURPOSE Although a few techniques for lengthening intestine by mechanical stretch have been described, they are relatively complex, and the majority involve placement of an intraluminal device. Ideally, techniques applicable to humans would be easy to perform and extraluminal to avoid the potential for mucosal injury. This study of distraction enterogenesis used an extraluminal, radially self-expanding shape-memory polymer cylinder and a simple operative approach to both elongate intestine and grow new tissue. METHODS Young Sprague Dawley rats (250-350 g) underwent Roux-en-Y isolation of a small intestinal limb and were divided in three groups: no further manipulation (Control 1, C1); placement of a nonexpanding device (Control 2, C2); or placement of a radially expanding device by the limb (Experimental, Exp). For C2 and Exp animals, the blind end of the limb was wrapped around the radially expanding cylindrical device with the limb-end sutured back to the limb-side. Bowel length was measured at operation and at necropsy (14 days) both in-situ and ex-vivo under standard tension (6g weight). Change in length is shown as mean ± standard deviation. A blinded gastrointestinal pathologist reviewed histology and recorded multiple measures of intestinal adaptation. The DNA to protein ratio was quantified as a surrogate for cellular proliferation. Changes in length, histologic measures, and DNA:protein were compared using analysis of variance, with significance set at P<0.05. RESULTS The length of the Roux limb in situ increased significantly in Exp animals (n=8, 29.0 ± 5.8mm) compared with C1 animals (n=5, -11.2 ± 9.0mm, P<0.01). The length of the Roux limb ex vivo under standard tension increased in the Exp group (25.8 ± 4.2mm) compared with the C2 group (n=6, -4.3 ± 6.0, P<0.01). There were no differences in histologic measures of bowel adaptation between the groups, namely villous height and width, crypt depth, crypt density, and crypt fission rate (all P ≥ 0.08). Muscularis mucosal thickness was also not different (P=0.25). There was no difference in DNA:protein between groups (P=0.47). CONCLUSION An extraluminally placed, radially expanding shape-memory polymer cylinder successfully lengthened intestine, without damaging mucosa. Lack of difference in muscularis thickness and a constant DNA:protein ratio suggests that this process may be related to actual growth rather than mere stretch. This study demonstrated a simple approach that warrants further study aiming at potential clinical applicability.

Transamniotic stem cell therapy (TRASCET) mitigates bowel damage in a model of gastroschisis

PURPOSE We sought to determine whether intraamniotic delivery of concentrated amniotic-derived mesenchymal stem cells (afMSCs) could reduce damage to exposed bowel in experimental gastroschisis. METHODS Rat fetuses (n=117) with surgically created gastroschisis were divided into three groups: untreated animals (n=62) and two groups receiving volume-matched intraamniotic injections of either saline (n=25) or 2 × 10(6) cells/mL of syngeneic, labeled afMSCs (n=30). Animals were killed before term, along with normal controls (NL). Blinded observers performed computerized measurements of total and segmental (serosa, muscularis, and mucosa) intestinal wall thicknesses. Statistical comparisons were by ANOVA (P<0.05). RESULTS Among survivors with gastroschisis, there were statistically significant decreases in total bowel wall, serosal, muscular, and mucosal thicknesses in the afMSC group vs. the untreated group (P=0.001/0.035/0.001/0.005, respectively) and vs. the saline group (P=0.003/0.05/<0.001/0.026, respectively). There were no such significant differences between the untreated and saline groups. There were no differences between the afMSC group and NL, except for a significantly thicker muscular layer in the afMSC group (P=0.014). Labeled afMSCs were scarcely identified, suggesting a paracrine effect. CONCLUSIONS Amniotic mesenchymal stem cells mitigate bowel damage in experimental gastroschisis after concentrated intraamniotic injection. Transamniotic stem cell therapy (TRASCET) may become a practical component of the treatment of gastroschisis.

Transamniotic stem cell therapy (TRASCET) in a leporine model of gastroschisis.

BACKGROUND/PURPOSE Transamniotic stem cell therapy (TRASCET) with amniotic fluid mesenchymal stem cells (afMSCs) has been shown to mitigate bowel damage in a rodent model of gastroschisis. As a prerequisite to clinical translation, we sought to study TRASCET in a larger animal model. METHODS New Zealand rabbit fetuses (n=64) with surgically created gastroschisis were divided into three groups. One group (untreated) had no further manipulations. Two groups received volume-matched intraamniotic injections of either saline or a suspension of afMSCs. Nonmanipulated fetuses served as controls. Histomorphologic measurements of intestinal damage, along with biochemical profiling of inflammation markers, were performed at term. Statistical comparisons were by Fishers exact test, ANOVA and the Wald test (P<0.05). RESULTS Overall survival was 62.5%. Segmental and total intestinal wall thicknesses were significantly decreased in the afMSC group compared with the untreated and saline groups (all P<0.001), with no significant differences between untreated and saline groups (P=0.24 to 1.00, depending on layer). Muscularis and serosal layers were significantly thicker in the afMSC group than in normal controls (P=0.045 and P<0.001, respectively). CONCLUSIONS Concentrated intraamniotic injection of afMSC lessens, yet does not prevent, intestinal damage in a leporine model of gastroschisis. TRASCET may become a valuable strategy in the management of gastroschisis. LEVEL OF EVIDENCE N/A - animal/experimental studies.

Donor mesenchymal stem cells home to maternal wounds after transamniotic stem cell therapy (TRASCET) in a rodent model.

PURPOSE Transamniotic stem cell therapy (TRASCET) with amniotic fluid-derived MSCs (afMSCs) has emerged experimentally as a practical treatment strategy for congenital anomalies. In this study, we sought to determine whether afMSCs migrate to the mother following TRASCET. METHODS Pregnant rat dams were divided into three groups. Two groups received volume-matched injections into all amniotic cavities of either a suspension of afMSCs labeled with a luciferase reporter gene or the luciferase protein alone. In a third group, a suspension of labeled cells was aliquoted onto the serosal surface of the uterus. Maternal samples from the laparotomy scar (fascia and skin separately), bone marrow, and peripheral blood were procured, along with placenta and umbilical cord. Specimens were screened for luminescence via microplate luminometry. RESULTS Luminescence was detected in 60% (9/15) of the fascial scars from the group receiving intraamniotic injection of afMSCs, but in none of the other groups (P<0.001). There was a direct correlation between the presence of donor cells in the placenta and their presence in maternal fascia (Wald test=10.2; P=0.001). CONCLUSIONS Amniotic mesenchymal stem cells migrate to maternal sites of injury after intraamniotic injection. Maternal homing of donor cells must be considered in the setting of transamniotic stem cell therapy. LEVEL OF EVIDENCE N/A (animal and laboratory study).

Extraluminal helicoidal stretch (Helixtretch): A novel method of intestinal lengthening

PURPOSE We sought to test a novel, extraluminal method of intestinal lengthening that precludes violation of the intestinal wall. METHODS Sprague-Dawley rats (n=45) with size-matched bowel segments isolated by Roux-en-Y reconstruction were divided into three groups. Group 1 (n=14) had no further manipulations. In Groups 2 (n=12) and 3 (n=19), the isolated segment was wrapped around a length-matched device in a helicoidal fashion. In Group 2, the device consisted of plain polyurethane tubing. In Group 3, it consisted of a gradually expanding hygroscopic hydrogel (12.5mm final diameter). Euthanasia was performed at 8-21 days. Statistical analysis was by two-way ANOVA (P<0.05). RESULTS Overall survival was 87% (39/45). There was a statistically significant increase in bowel length in Group 3 compared to the other two groups (P<0.001). This increase correlated with the number of helicoidal coils (P=0.018), but not with post-operative time (P>0.50). There were no significant differences in total DNA/protein ratio across the groups (P=0.65). Histologically, there was an apparent increase in the goblet cell density in Group 3. CONCLUSIONS Measured extraluminal helicoidal stretch (Helixtretch) is tolerated by the intestine. Helixtretch induces bowel lengthening in a rodent model. Further analysis of this novel, minimally invasive alternative for intestinal augmentation is warranted.

Radiographic measurement of intestinal length among children with short bowel syndrome: Retrospective determination remains problematic☆

PURPOSE Small bowel length is the most reliable predictor of enteral independence in pediatric short bowel syndrome. Retrospectively measured bowel lengths on upper GI with small bowel follow-through (UGI/SBFT) were compared to operative measurements. METHODS A pediatric radiologist and surgical trainees blinded to operative measurements retrospectively analyzed UGI/SBFT studies using the digital radiography curved measurement tool. Children with SBS and severe intestinal failure (parenteral nutrition >90days) at a multidisciplinary intestinal failure program 2002-2015 were included. Data were expressed as median (Q1, Q3). RESULTS Thirty-six children aged 0.8 (0.4, 3.7) years were analyzed. Fifty-six percent had intestinal malrotation, and 58% had prior serial transverse enteroplasty. Studies were conducted within 10 (7, 20) days of surgery. Intraoperative bowel length was 90cm (45, 142), while UGI/SBFT measurement by radiologist was 45cm (28, 63), with a mean difference of 47cm (SD 58cm, p<0.001) and a mean percent error of 50%. Radiographic assessment underestimated intestinal length in 83% of patients. CONCLUSION Bowel length measured retrospectively from upper GI with small bowel follow-through studies usually underestimated intraoperative bowel length. The limits of agreement were too wide for this technique to be clinically useful. Operative measurement remains necessary to assess intestinal length and rehabilitation potential. TYPE OF STUDY Study of Diagnostic Test. LEVEL OF EVIDENCE Level III.